Add fpga-xc3s100e and icopyx support

fpga/min_max_tracker.v

@@ -1,65 +0,0 @@
-//-----------------------------------------------------------------------------
-// Copyright (C) 2014 iZsh <izsh at fail0verflow.com>
-//
-// This code is licensed to you under the terms of the GNU GPL, version 2 or,
-// at your option, any later version. See the LICENSE.txt file for the text of
-// the license.
-//-----------------------------------------------------------------------------
-// track min and max peak values (envelope follower)
-//
-// NB: the min value (resp. max value) is updated only when the next high peak
-// (resp. low peak) is reached/detected, since you can't know it isn't a
-// local minima (resp. maxima) until then.
-// This also means the peaks are detected with an unpredictable delay.
-// This algorithm therefore can't be used directly for realtime peak detections,
-// but it can be used as a simple envelope follower.
-module min_max_tracker(input clk, input [7:0] adc_d, input [7:0] threshold,
-    output [7:0] min, output [7:0] max);
-
-    reg [7:0] min_val = 255;
-    reg [7:0] max_val = 0;
-    reg [7:0] cur_min_val = 255;
-    reg [7:0] cur_max_val = 0;
-    reg [1:0] state = 0;
-
-    always @(posedge clk)
-    begin
-        case (state)
-        0: // initialize
-            begin
-                if (cur_max_val >= ({1'b0, adc_d} + threshold))
-                    state <= 2;
-                else if (adc_d >= ({1'b0, cur_min_val} + threshold))
-                    state <= 1;
-                if (cur_max_val <= adc_d)
-                    cur_max_val <= adc_d;
-                else if (adc_d <= cur_min_val)
-                    cur_min_val <= adc_d;
-            end
-        1: // high phase
-            begin
-                if (cur_max_val <= adc_d)
-                    cur_max_val <= adc_d;
-                else if (({1'b0, adc_d} + threshold) <= cur_max_val) begin
-                    state <= 2;
-                    cur_min_val <= adc_d;
-                    max_val <= cur_max_val;
-                end
-            end
-        2: // low phase
-            begin
-                if (adc_d <= cur_min_val)
-                    cur_min_val <= adc_d;
-                else if (adc_d >= ({1'b0, cur_min_val} + threshold)) begin
-                    state <= 1;
-                    cur_max_val <= adc_d;
-                    min_val <= cur_min_val;
-                end
-            end
-        endcase
-    end
-
-    assign min = min_val;
-    assign max = max_val;
-
-endmodule